The goal of this clinical trial is to learn how the FDA-cleared Q-Collar device affects brain blood flow regulation during rest and exercise in healthy adults. The main questions this study aims to answer are: 1. How does the Q-Collar affect brain blood flow when there are quick changes in blood pressure, like when standing up quickly, or when breathing against resistance? 2. How does the Q-Collar affect brain blood flow during exercise? Researchers will compare sessions where participants wear the Q-Collar to sessions where they do not wear the device to see if the Q-Collar improves brain blood flow during both rest and exercise. Participants will: * Complete two study visits, each 1 to 4 weeks apart. * Perform a series of tasks, including standing tests, breathing tests, and exercise on a stationary bike, while their heart rate, brain blood flow, and other body functions are monitored. * Wear the Q-Collar during one of the sessions and not wear it during the other session. The order of the sessions will be randomly assigned.
We are doing this research to improve our understanding of how a FDA-cleared device, called the Q-Collar, affects brain blood flow regulation both at rest and in response to exercise. Participants will be asked to complete two study visits over a period of 1 to 4 weeks. Each visit will involve identical assessments, with the Q-Collar worn during one session and not during the other. The order of the sessions will be randomly assigned. Each visit consists of three main tasks: Standing Test (approximately 10 minutes): Participants will perform a series of movements, standing up from a seated position, while heart rate, breathing, and brain function are monitored. This test will be repeated three times per session. Resistive Breathing Test (approximately 10 minutes): Using a mouthpiece that controls breathing difficulty, participants will breathe at specific depths and rates while sensors track gases, heart, lung, and brain activity. This task will be completed once per session. Stationary Biking Exercise Test (approximately 30 minutes): Participants will perform an exercise test on a stationary bike while monitors measure heart rate, breathing gases, blood pressure, and brain blood flow. The test begins with a 2-minute warm-up, followed by progressively more challenging pedaling, with resistance adjusted based on body weight. Difficulty increases every 1 to 2 minutes until the required pace can no longer be maintained. Periodic ratings of exertion will be recorded. The session concludes with a 2-minute cool-down after maximum effort is reached.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
SINGLE
Enrollment
20
Participants will complete a series of tests (sit-to-stand, resistive breathing, and graded bike test) while wearing a Q-Collar.
Participants will undergo the same study procedures without wearing the Q-Collar.
Spaulding Rehabilitation Hospital
Cambridge, Massachusetts, United States
RECRUITINGSit-to-Stand Test: Autoregulatory Slope
The slope of the autoregulatory curve, representing the change in cerebral blood flow in response to rapid shifts in blood pressure during the sit-to-stand transition.
Time frame: 2 study visits within a 4 week time frame
Resistance Breathing Test: Autoregulatory Gain
The autoregulatory gain, which reflects the brain's ability to maintain stable cerebral blood flow during sinusoidal fluctuations in blood pressure induced by resistance breathing.
Time frame: 2 study visits within a 4 week time frame
Graded Bike Test: Change in Cerebral Blood Flow
The change in cerebral blood flow velocity (CBFV) during the graded exercise test, assessed by Transcranial Doppler ultrasonography, indicating how cerebral blood flow responds to increasing physical exertion.
Time frame: 2 study visits within a 4 week time frame
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